Now let\'s apply Z=R2+[L(1/C)]2 and tan=X/R to a specific R-L-C circuit. The cir
ID: 1555820 • Letter: N
Question
Now let's apply Z=R2+[L(1/C)]2 and tan=X/R to a specific R-L-C circuit. The circuit layout is shown in (Figure 1) . Suppose that its components have values R=300, L=60mH, C=0.50F, V=50V, and =10,000rad/s. Find the reactances XL, XC, and X, the impedance Z, the current amplitude I, the phase angle , and the voltage amplitude across each circuit element.
Part A - Practice Problem: In a series circuit, suppose R=190, L=340mH, C=0.85F, V=75V, and =5250rad/s. Find the reactance XL. Express your answer in ohms to two significant figures.
Part B - Practice Problem: Find the reactance XC. Express your answer in ohms to two significant figures.
Part C - Practice Problem: Find the impedance Z. Express your answer in ohms to two significant figures.
Part D - Practice Problem: Find the current amplitude I. Express your answer in amperes to two significant figures. A
Part E - Practice Problem: Find the phase angle . Express your answer in degrees to two significant figures.
Part F - Practice Problem: Find the voltage amplitude across the resistor. Express your answer in volts to two significant figures. V
Part G - Practice Problem: Find the voltage amplitude across the inductor. Express your answer in volts to two significant figures. V
Part H - Practice Problem: Find the voltage amplitude across the capacitor. Express your answer in volts to two significant figures. V
Now let's apply Z=R2+[L(1/C)]2 and tan=X/R to a specific R-L-C circuit. The circuit layout is shown in (Figure 1) . Suppose that its components have values R=300, L=60mH, C=0.50F,V=50V, and =10,000rad/s. Find the reactances XL, XC, and X, the impedance Z, the current amplitude I,the phase angle , and the voltage amplitude across each circuit element.
Part A - Practice Problem:
In a series circuit, suppose R=190, L=340mH, C=0.85F, V=75V, and =5250rad/s. Find the reactance XL.
Express your answer in ohms to two significant figures.
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Part B - Practice Problem:
Find the reactance XC.
Express your answer in ohms to two significant figures.
SubmitMy AnswersGive Up
Part C - Practice Problem:
Find the impedance Z.
Express your answer in ohms to two significant figures.
SubmitMy AnswersGive Up
Part D - Practice Problem:
Find the current amplitude I.
Express your answer in amperes to two significant figures.
SubmitMy AnswersGive Up
Part E - Practice Problem:
Find the phase angle .
Express your answer in degrees to two significant figures.
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Part F - Practice Problem:
Find the voltage amplitude across the resistor.
Express your answer in volts to two significant figures.
SubmitMy AnswersGive Up
Part G - Practice Problem:
Find the voltage amplitude across the inductor.
Express your answer in volts to two significant figures.
SubmitMy AnswersGive Up
Part H - Practice Problem:
Find the voltage amplitude across the capacitor.
Express your answer in volts to two significant figures.
V=IZ L L Yr = IR O C CExplanation / Answer
R = 300,
L = 60 mH,
C = 0.50 F ,
V = 50 V ,
and = 10,000 rad/s
XL = X L = 10,000 X 60 X 10-3
= 600
Xc = 1 / C
= 1 / 10000 X 0.5 X 10-6
= 200
Z = ( ( R2 + ( XL - Xc )2 )1/2
Z = ( ( 3002 + ( 600 - 200 )2 )1/2
Z = 500
i = Vo / Z
i = 50 / 500
i = 0.1 A
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Part A
In a series circuit, suppose R = 190, L = 340mH, C = 0.85F, V = 75V, and = 5250rad/s.
XL = X L = 5250 X 340 X 10-3
= 1785
Part B
Xc = 1 / C
= 1 / 5250 X 0.85 X 10-6
= 224
Part C -
Z = ( ( R2 + ( XL - Xc )2 )1/2
Z = ( ( 1902 + ( 1785 - 224 )2 )1/2
Z = 1572.52
Part D
i = Vo / Z
i = 75 / 1572.52
i = 0.0476 A
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